Why do larger firms pay executives more for
performance?
Performance-based versus labor market incentives
VU Finance Lunch Seminar
Bo Hu
October 26, 2018
Department of Economics, Vrije Universiteit Amsterdam
Tinbergen Institute
Introduction
Introduction
• Industry: Competition for executive matters for incentive contracts.
• Apple proxy statement 2016:
“experienced personnel ... are in high demand, ... (the contract
incentives are designed) to attract and retain a talented executive
team and align executives interests with those of shareholders ...”
• Amazon proxy statement 2016:
The core philosophy concerning executive incentive package is “to
attract and retain the highest caliber employees”
• ...
1
Introduction
• Academia: The mechanism linking the managerial labor market and
incentive contract design is not clear.
• Direction for future research in Edmans et al. 2017
“Most models of incentives in market equilibrium are static. It would
be useful to add a dynamic moral hazard problem where incentives
can be provided not only through contracts, but also by ... the
promise of being hired by a larger firm. This would, among other
things, analyze how contracting incentives interact with ... hiring
incentives. These different incentive channels may conflict with as
well as reinforce each other.”
2
Research Questions
• How does the managerial labor market competition impact the
incentive contracts?
• Explain two important empirical puzzles
1. Firm-size premium in compensation growth
Compensation growth is higher in larger firms, controlling for total
compensation at the beginning.
2. Firm-size premium in performance-based incentives
Performance-based incentives are higher in larger firms controlling for
total compensation.
3
Motivating Facts
• A typical executive compensation package:
total pay = salary + performance-based pay
(tdc1) (bonus, stocks, options, etc.)
30% 70%
• Performance-based incentives
delta =∆Wealth(in dollars)
∆Firm Value(in percentage)
4
5
6
35 40 45 50 55 60 65age
0.3
0.4
0.5
0.6
0.7
0.8siz
e pr
emiu
m
7
Research Questions
• How does the managerial labor market competition impact the
incentive contracts?
• Explain two important empirical puzzles
1. Firm-size premium in compensation growth
Compensation growth is higher in larger firms, controlling for total
compensation at the beginning.
2. Firm-size premium in performance-based incentives
Performance-based incentives are higher in larger firms controlling for
total compensation.
8
Model
• embed dynamic moral hazard into an equilibrium search framework
• managerial labor market: search frictional and on-the-job search
• executives are poached by outside firms, and poaching offers have
impacts on compensation level and contract incentives
• a hierarchical job ladder towards larger firms
Explain firm-size premium in compensation growth
• executives use poaching offers to renegotiate with the current firm
• larger firms are more capable of countering outside offers
9
Model
• embed dynamic moral hazard into an equilibrium search framework
• managerial labor market: search frictional and on-the-job search
• executives are poached by outside firms, and poaching offers have
impacts on compensation level and contract incentives
• a hierarchical job ladder towards larger firms
Explain firm-size premium in compensation growth
• executives use poaching offers to renegotiate with the current firm
• larger firms are more capable of countering outside offers
9
Explain firm-size premium in performance-based incentives
1. Poaching offers generate labor market incentives
• poaching firms are willing to bid higher for more productive executive
• executive productivity depends on past effort
• taking effort today will lead to a more favorable offer from the same
poaching firm
2. Total Incentives = Performance-based + Labor Market Incentives
3. Labor Market Incentives decrease in firm size
• executives in larger firms are less likely to receive competitive outside
offers
• executives in larger firms have a higher certainty equivalent of
expected utility in the future; subjectively they are less sensitive to
wealth variation (diminishing marginal utility)
10
Explain firm-size premium in performance-based incentives
1. Poaching offers generate labor market incentives
• poaching firms are willing to bid higher for more productive executive
• executive productivity depends on past effort
• taking effort today will lead to a more favorable offer from the same
poaching firm
2. Total Incentives = Performance-based + Labor Market Incentives
3. Labor Market Incentives decrease in firm size
• executives in larger firms are less likely to receive competitive outside
offers
• executives in larger firms have a higher certainty equivalent of
expected utility in the future; subjectively they are less sensitive to
wealth variation (diminishing marginal utility)
10
Explain firm-size premium in performance-based incentives
1. Poaching offers generate labor market incentives
• poaching firms are willing to bid higher for more productive executive
• executive productivity depends on past effort
• taking effort today will lead to a more favorable offer from the same
poaching firm
2. Total Incentives = Performance-based + Labor Market Incentives
3. Labor Market Incentives decrease in firm size
• executives in larger firms are less likely to receive competitive outside
offers
• executives in larger firms have a higher certainty equivalent of
expected utility in the future; subjectively they are less sensitive to
wealth variation (diminishing marginal utility)
10
Road Map
1. Model
2. Reduced-form Evidence
3. Structural Estimation
4. Two Counterfactual Analysis
11
Related Literature
• Assignment Models
• Edmans, Gabaix and Landier (2009), Edmans and Gabaix (2011)
• executives in larger firms value leisure more u(w × g(e)).
• Moral Hazard Models
• Margiotta and Miller (2000), Gayle and Miller (2009), Gayle, Golan
and Miller (2015)
• moral hazard problem is more severe / the quality of signal (about
effort) is poor in larger firms
• Dynamic contract literature
• moral hazard: Spear and Srivastava (1987), etc.
• limited commitment: Thomas Worrall (1988, 1990), etc.
• Labour search literature
• sequential auction: Postel-Vinay and Robin (2002), etc.
12
The Model
Set Up: Moral Hazard
Discrete time and infinite periods
Executives:
• risk averse, u(w)− c(e), e ∈ {0, 1}, c(1) = c , c(0) = 0,
u(w) =w1−σ
1− σ• effort e stochastically increases executive productivity z ∈ Z• z is persistent, follows a discerete Markov Chain process
• Γ(z ′|z) when take the effort, Γs(z ′|z) when shirk
• die with δ ∈ (0, 1), the match breaks up, the job disappears
Firms:
• firm size s ∈ S, exogenous and permanent
• production (cash flow) y(s, z) = α0sα1z , α0, α1 ∈ (0, 1].
13
Set Up: Moral Hazard
Discrete time and infinite periods
Executives:
• risk averse, u(w)− c(e), e ∈ {0, 1}, c(1) = c , c(0) = 0,
u(w) =w1−σ
1− σ• effort e stochastically increases executive productivity z ∈ Z• z is persistent, follows a discerete Markov Chain process
• Γ(z ′|z) when take the effort, Γs(z ′|z) when shirk
• die with δ ∈ (0, 1), the match breaks up, the job disappears
Firms:
• firm size s ∈ S, exogenous and permanent
• production (cash flow) y(s, z) = α0sα1z , α0, α1 ∈ (0, 1].
13
Set Up: Managerial Labor Market
Managerial Labor Market:
• search frictional and allows on-the-job search
• with λ1 ∈ (0, 1) sample an outside firm s ′ from F (s ′)
Sequential Auction:
• Bertrand competition between current firm s and outside firm s ′
• Each firm has a bidding frontier, W (z , s), defined by
Π(z , s,W (z , s)
)= 0
• W (z , s) increases in z and s
• if s ′ < s, renegotiate with the current firm
• if s ′ > s, transit to the poaching firm
14
Contracting Problem
Firms maximize profits
Π(z , s,V ) = maxw ,W (z′,s′)
∑z′∈Z
∑s′∈S
[y(s, z ′)− w + β̃Π(z ′, s,W (z ′, s ′))
]F̃ (s ′)Γ(z ′|z)
subject to
V = u(w)− c + β̃∑z′∈Z
∑s′∈S
W (z ′, s ′)F̃ (s ′)Γ(z ′|z), (PKC)
β̃∑z′∈Z
∑s′∈S
W (z ′, s ′)F̃ (s ′)(
Γ(z ′|z)− Γs(z ′|z))≥ c , (IC)
W (z ′, s ′) ≥ min{W (z ′, s ′),W (z ′, s)}, (PC-Executive)
W (z ′, s ′) ≤W (z ′, s). (PC-Firm)
15
The Equilibrium
An stationary equilibrium is defined by
• value functions {W 0,W ,Π};• optimal contracts σ = {w , e,W (z ′)} for z ′ ∈ Z;
• Γ follows the optimal effort choice;
• a distribution of executives across employment states evolving
according to flow equations.
16
The Optimal Contract
The Optimal Contract
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The Optimal Contract
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The Optimal Contract
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The Optimal Contract
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The Optimal Contract
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The Optimal Contract
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The Optimal Contract
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The Optimal Contract
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The Optimal Contract
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The Optimal Contract
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The Optimal Contract
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The Optimal Contract
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The Optimal Contract
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The Optimal Contract
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The Optimal Contract
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The Optimal Contract
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induced by sequential auctionwith outside firm
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The Optimal Contract
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The Optimal Contract
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The Optimal Contract
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The Optimal Contract
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36
Explain size premium in
compensation growth
Three sets of poaching offers
Three sets of outside firms s ′:
M1 : s ′ ≥ s, lead to job turnovers
M2 : s ′ < s, improve compensation, no job turnovers
M3 : other or no outside firms
The continuation value of an executive is∑s′∈M1
F (s ′)E[W (z ′, s)] +∑
s′∈M2
E[W (z ′, s ′)]F (s ′)︸ ︷︷ ︸labor market driven
+∑
s′∈M3
F (s ′)E[W (z ′)]︸ ︷︷ ︸promise driven
37
Three sets of poaching offers
Three sets of outside firms s ′:
M1 : s ′ ≥ s, lead to job turnovers
M2 : s ′ < s, improve compensation, no job turnovers
M3 : other or no outside firms
The continuation value of an executive is∑s′∈M1
F (s ′)E[W (z ′, s)] +∑
s′∈M2
E[W (z ′, s ′)]F (s ′)︸ ︷︷ ︸labor market driven
+∑
s′∈M3
F (s ′)E[W (z ′)]︸ ︷︷ ︸promise driven
37
s
s
s1
s(w)
M2 : ∆w > 0
M3 : ∆w = 0
38
s
s
s1
s(w)
s
s
s2
s(w)
M2 : ∆w > 0
M3 : ∆w = 0
M2 : ∆w > 0
M3 : ∆w = 0
39
s
s
s1
s(w)
s
s
s2
s(w)
M2 : ∆w > 0
M3 : ∆w = 0
M2 : ∆w > 0
M3 : ∆w = 0
40
s
s
s1
s(w)
s
s
s2
s(w)
M2 : ∆w > 0
M3 : ∆w = 0
M2 : ∆w > 0
M3 : ∆w = 0
41
Explain size premium in
performance-based incentives
Incentive Compatibility Constraint
What is the incentive out of W (z ′)?
I[W (z ′)] ≡ β̃
{∑z′
W (z ′)Γ(z ′|z)−∑z′
W (z ′)Γs(z ′|z)
}.
The incentive compatibility constraint is∑s′∈M1
F (s ′)I[W (z ′, s)] +∑
s′∈M2
I[W (z ′, s ′)]F (s ′)︸ ︷︷ ︸Labor Market Incentives
+∑
s′∈M3
F (s ′)I[W (z ′)]︸ ︷︷ ︸Performance-based Incentives
≥ c .
Sets of outside firms s ′:
M1 : s ′ ≥ s, lead to job turnovers
M2 : s ′ < s, improve compensation, no job turnovers
M3 : other or no outside firms
42
Incentive Compatibility Constraint
What is the incentive out of W (z ′)?
I[W (z ′)] ≡ β̃
{∑z′
W (z ′)Γ(z ′|z)−∑z′
W (z ′)Γs(z ′|z)
}.
The incentive compatibility constraint is∑s′∈M1
F (s ′)I[W (z ′, s)] +∑
s′∈M2
I[W (z ′, s ′)]F (s ′)︸ ︷︷ ︸Labor Market Incentives
+∑
s′∈M3
F (s ′)I[W (z ′)]︸ ︷︷ ︸Performance-based Incentives
≥ c .
Sets of outside firms s ′:
M1 : s ′ ≥ s, lead to job turnovers
M2 : s ′ < s, improve compensation, no job turnovers
M3 : other or no outside firms
42
Incentive Compatibility Constraint
What is the incentive out of W (z ′)?
I[W (z ′)] ≡ β̃
{∑z′
W (z ′)Γ(z ′|z)−∑z′
W (z ′)Γs(z ′|z)
}.
The incentive compatibility constraint is∑s′∈M1
F (s ′)I[W (z ′, s)] +∑
s′∈M2
I[W (z ′, s ′)]F (s ′)︸ ︷︷ ︸Labor Market Incentives
+∑
s′∈M3
F (s ′)I[W (z ′)]︸ ︷︷ ︸Performance-based Incentives
≥ c .
Sets of outside firms s ′:
M1 : s ′ ≥ s, lead to job turnovers
M2 : s ′ < s, improve compensation, no job turnovers
M3 : other or no outside firms
42
s
s
s1
s(w)
M1 : I[W (z′, s1)]
M2 : I[W (z′, s′)]
M3 : 0
43
s
s
s1
s(w)
s
s
s2
s(w)
M1 : I[W (z′, s2)]
M2 : I[W (z′, s′)]
M3 : 0
M1 : I[W (z′, s1)]
M2 : I[W (z′, s′)]
M3 : 0
44
s
s
s1
s(w)
s
s
s2
s(w)
M1 : I[W (z′, s2)]
M2 : I[W (z′, s′)]
M3 : 0
M1 : I[W (z′, s1)]
M2 : I[W (z′, s′)]
M3 : 0
45
s
s
s1
s(w)
s
s
s2
s(w)
M1 : I[W (z′, s2)]
M2 : I[W (z′, s′)]
M3 : 0
M1 : I[W (z′, s1)]
M2 : I[W (z′, s′)]
M3 : 0
>
>
>
=
=
46
Incentives from W (z ′, s) decrease in s
s1 ×∆z s2 ×∆z
u
w
I[W (z′, s2)]
I[W (z′, s1)]
47
Incentives from W (z ′, s) decrease in s
Proposition
Suppose the executives’ utility is of the CRRA form and the cost of effort
c = c(s), then I(W (z ′, s)
)decreases in s if
σ > 1 +s1−α1
α1ψ′(s), (1)
where ψ(s) is a function of s that is positive and increasing in s.
Intuition
• a higher s leads to higher certainty equivalent of W (z ′, s)
• a higher certainty equivalent leads to lower marginal utility of extra
wealth
48
Summary
• How does the managerial labor market competition impact the
incentive contracts?
Competition impacts both compensation level and incentives.
• Explain two important empirical puzzles
1. Firm-size premium in compensation growth
Larger firms are more capable of countering outside offers.
2. Firm-size premium in performance-based incentives
Poaching offers generate labor market incentives which decrease in
firm size.
49
Examine Direct Evidence
Three implications of the model
1. The managerial labor market is active.
2. Managers climb job ladders towards larger firms.
3. Managers in larger firms tend to have less job-to-job transitions.
50
Data
Data sources
• ExecuComp: compensation and individual features, etc.
• CompuStat: firm performance, etc.
• CRSP: stock return.
• BoardEX: executive employment history.
Define job turnovers
• Job-to-job transition: leaves the current firm, and starts to work in
another firm within 180 days.
• Exit: otherwise.
51
Three implications of the model
1. The managerial labor market is active.
2. Managers climb job ladders towards larger firms.
3. Managers in larger firms tend to have less job-to-job transitions.
52
Job-to-job transition rate over age
30 35 40 45 50 55 60 65 70 75Age (years)
0.00
0.01
0.02
0.03
0.04
0.05
0.06
0.07
0.08
Job-
to-J
ob T
rans
ition
Rat
e (%
)
53
Exit rate over age
30 35 40 45 50 55 60 65 70 75Age (years)
0.02
0.04
0.06
0.08
0.10
0.12
0.14
Exit
Rat
e (%
)
54
Key implications of the model
1. The managerial labor market is active.
2. Managers climb job ladders towards larger firms.
3. Managers in larger firms tend to have less job-to-job transitions.
55
Climb the Job Ladder
56
Key implications of the model
1. The managerial labor market is active.
2. Managers climb job ladders towards larger firms.
3. Managers in larger firms tend to have less job-to-job transitions.
57
58
Estimation
Model Specifications
• utility function of CRRA form
u(w) =w1−σ
1− σ
• production function (cash flows)
y(s, z) = eα0sα1z
• productivity process by AR(1), discretized by Tauchen (1989)
zt = ρ0(e) + ρzzt−1 + εt
• poaching firm distribution by truncated log-normal F (s)
59
Parameters
Parameters Description
δ the death probability
λ1 the offer arrival probability
ρz the AR(1) coefficient of productivity shocks
µz the mean of productivity shocks for e = 1
σz the standard deviation of productivity shocks
µs the mean of F(s)
σs the standard deviation of F(s)
c cost of efforts
σ relative risk aversion
α0, α1 production function parameters
60
Moments and Estimation
61
Predictions on the empirical puzzles
• These moments are not targeted.
• They are predicted by the estimated model.
• The model quantitatively captures the two premiums.
62
63
64
Two Counterfactual Analysis
1. If labor market incentives are ignored ...
65
2. Spillover effects
66
2. Spillover effects
67
Conclusion
Conclusion
• Managerial labor market competition impacts the incentive contracts
on both compensation level and incentives.
• Larger firms are more capable of countering outside offers.
• Poaching offers generate labor market incentives which decrease in
firm size.
• Structure estimates show the model captures the firm size premium
in compensation growth and performance-based incentives.
68
No Moral Hazard, Full Commitment
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Only Moral Hazard
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Only Limited Commitment
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Optimal Contract
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CEO’s of "Small Firms" in S&P 500
+-----------------------------------------------------------------+
tdc1: total compensation
delta: dollar-percentage incentive
+-----------------------------------------------------------------+
| Company Market Cap tdc1 delta |
| millions 000’s 000’s/%|
|-----------------------------------------------------------------|
| INCYTE CORP 446.408 2432.9734 60.939838 |
| WESTROCK CO 547.828 2800.668 130.96215 |
| ENVISION HEALTHCARE CORP 678.6906 1777.991 217.729 |
| PRICELINE GROUP INC 886.0817 1775.531 165.73476 |
| LKQ CORP 889.9763 2602.093 473.70974 |
| REGENERON PHARMACEUTICALS 897.3801 3094.134 566.14187 |
| SKYWORKS SOLUTIONS INC 1113.547 2638.243 128.10688 |
| CENTENE CORP 1130.155 4584.605 344.02299 |
| ALASKA AIR GROUP INC 1194.977 950.098 99.525198 |
| HOLOGIC INC 1276.448 2709.708 428.10996 |
| ACUITY BRANDS INC 1328.171 1102.528 133.42285 |
| ANSYS INC 1368.129 3738.803 431.01562 |
| GARTNER INC 1474.909 8945.338 158.65569 |
CEO’s of "Large Firms" in S&P 500
+-----------------------------------------------------------------+
tdc1: total compensation
delta: dollar-percentage incentives
+-----------------------------------------------------------------+
| Company Market Cap tdc1 delta |
| millions 000’s 000’s/%|
|-----------------------------------------------------------------|
| TIME WARNER INC 79965.89 18545.215 1212.9513 |
| CONOCOPHILLIPS 80163.26 35442.729 4520.5571 |
| UNITED PARCEL SERVICE INC 82439.55 3120.042 340.01132 |
| VERIZON COMMUNICATIONS INC 83233.88 19425 861.09722 |
| HOME DEPOT INC 86128.2 35750.103 2014.3633 |
| AT&T INC 94944.89 17283.529 1666.3201 |
| COCA-COLA CO 95494.39 12781.61 425.62199 |
| PEPSICO INC 97836.48 15268.415 2919.7995 |
| CISCO SYSTEMS INC 121238.6 16269.85 5981.3853 |
| CHEVRON CORP 126749.6 13125.882 1106.8351 |
| INTL BUSINESS MACHINES CORP 129381.2 21693.615 1298.8777 |
| INTEL CORP 147738.2 6101.835 1874.5755 |
| WAL-MART STORES INC 192048.2 16652.894 1465.7708 |
| EXXON MOBIL CORP 344490.6 48922.808 3843.027 |
References i
References
Edmans, Alex, Xavier Gabaix, and Dirk Jenter (2017), “Executive
compensation: A survey of theory and evidence.” Technical report,
National Bureau of Economic Research.